HepLean Documentation

Lean.Declaration

Reducibility hints are used in the convertibility checker. When trying to solve a constraint such a

       (f ...) =?= (g ...)

where f and g are definitions, the checker has to decide which one will be unfolded. If f (g) is opaque, then g (f) is unfolded if it is also not marked as opaque, Else if f (g) is abbrev, then f (g) is unfolded if g (f) is also not marked as abbrev, Else if f and g are regular, then we unfold the one with the biggest definitional height. Otherwise both are unfolded.

The arguments of the regular Constructor are: the definitional height and the flag selfOpt.

The definitional height is by default computed by the kernel. It only takes into account other regular definitions used in a definition. When creating declarations using meta-programming, we can specify the definitional depth manually.

Remark: the hint only affects performance. None of the hints prevent the kernel from unfolding a declaration during Type checking.

Remark: the ReducibilityHints are not related to the attributes: reducible/irrelevance/semireducible. These attributes are used by the Elaborator. The ReducibilityHints are used by the kernel (and Elaborator). Moreover, the ReducibilityHints cannot be changed after a declaration is added to the kernel.

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    @[export lean_reducibility_hints_get_height]
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      Base structure for AxiomVal, DefinitionVal, TheoremVal, InductiveVal, ConstructorVal, RecursorVal and QuotVal.

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        @[export lean_mk_axiom_val]
        def Lean.mkAxiomValEx (name : Lean.Name) (levelParams : List Lean.Name) (type : Lean.Expr) (isUnsafe : Bool) :
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        • Lean.mkAxiomValEx name levelParams type isUnsafe = { name := name, levelParams := levelParams, type := type, isUnsafe := isUnsafe }
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          @[export lean_axiom_val_is_unsafe]
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          • v.isUnsafeEx = v.isUnsafe
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              @[export lean_mk_definition_val]
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              • Lean.mkDefinitionValEx name levelParams type value hints safety all = { name := name, levelParams := levelParams, type := type, value := value, hints := hints, safety := safety, all := all }
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                @[export lean_definition_val_get_safety]
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                • v.getSafetyEx = v.safety
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                    @[export lean_mk_theorem_val]
                    def Lean.mkTheoremValEx (name : Lean.Name) (levelParams : List Lean.Name) (type value : Lean.Expr) (all : List Lean.Name) :
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                    • Lean.mkTheoremValEx name levelParams type value all = { name := name, levelParams := levelParams, type := type, value := value, all := all }
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                      Value for an opaque constant declaration opaque x : t := e

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                        @[export lean_mk_opaque_val]
                        def Lean.mkOpaqueValEx (name : Lean.Name) (levelParams : List Lean.Name) (type value : Lean.Expr) (isUnsafe : Bool) (all : List Lean.Name) :
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                        • Lean.mkOpaqueValEx name levelParams type value isUnsafe all = { name := name, levelParams := levelParams, type := type, value := value, isUnsafe := isUnsafe, all := all }
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                          @[export lean_opaque_val_is_unsafe]
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                          • v.isUnsafeEx = v.isUnsafe
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                                Declaration object that can be sent to the kernel.

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                                  @[export lean_mk_inductive_decl]
                                  def Lean.mkInductiveDeclEs (lparams : List Lean.Name) (nparams : Nat) (types : List Lean.InductiveType) (isUnsafe : Bool) :
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                                    @[export lean_is_unsafe_inductive_decl]
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                                        @[specialize #[]]
                                        def Lean.Declaration.foldExprM {α : Type} {m : TypeType} [Monad m] (d : Lean.Declaration) (f : αLean.Exprm α) (a : α) :
                                        m α
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                                            The kernel compiles (mutual) inductive declarations (see inductiveDecls) into a set of

                                            • Declaration.inductDecl (for each inductive datatype in the mutual Declaration),
                                            • Declaration.ctorDecl (for each Constructor in the mutual Declaration),
                                            • Declaration.recDecl (automatically generated recursors).

                                            This data is used to implement iota-reduction efficiently and compile nested inductive declarations.

                                            A series of checks are performed by the kernel to check whether a inductiveDecls is valid or not.

                                            • numParams : Nat

                                              Number of parameters. A parameter is an argument to the defined type that is fixed over constructors. An example of this is the α : Type argument in the vector constructors nil : Vector α 0 and cons : α → Vector α n → Vector α (n+1).

                                              The intuition is that the inductive type must exhibit parametric polymorphism over the inductive parameter, as opposed to ad-hoc polymorphism.

                                            • numIndices : Nat

                                              Number of indices. An index is an argument that varies over constructors.

                                              An example of this is the n : Nat argument in the vector constructor cons : α → Vector α n → Vector α (n+1).

                                            • List of all (including this one) inductive datatypes in the mutual declaration containing this one

                                            • ctors : List Lean.Name

                                              List of the names of the constructors for this inductive datatype.

                                            • numNested : Nat

                                              Number of auxiliary data types produced from nested occurrences. An inductive definition T is nested when there is a constructor with an argument x : F T, where F : Type → Type is some suitably behaved (ie strictly positive) function (Eg Array T, List T, T × T, ...).

                                            • isRec : Bool

                                              true when recursive (that is, the inductive type appears as an argument in a constructor).

                                            • isUnsafe : Bool

                                              Whether the definition is flagged as unsafe.

                                            • isReflexive : Bool

                                              An inductive type is called reflexive if it has at least one constructor that takes as an argument a function returning the same type we are defining. Consider the type:

                                              inductive WideTree where
                                              | branch: (Nat -> WideTree) -> WideTree
                                              | leaf: WideTree
                                              

                                              this is reflexive due to the presence of the branch : (Nat -> WideTree) -> WideTree constructor.

                                              See also: 'Inductive Definitions in the system Coq Rules and Properties' by Christine Paulin-Mohring Section 2.2, Definition 3

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                                              @[export lean_mk_inductive_val]
                                              def Lean.mkInductiveValEx (name : Lean.Name) (levelParams : List Lean.Name) (type : Lean.Expr) (numParams numIndices : Nat) (all ctors : List Lean.Name) (numNested : Nat) (isRec isUnsafe isReflexive : Bool) :
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                                                @[export lean_inductive_val_is_rec]
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                                                • v.isRecEx = v.isRec
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                                                  @[export lean_inductive_val_is_unsafe]
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                                                  • v.isUnsafeEx = v.isUnsafe
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                                                    @[export lean_inductive_val_is_reflexive]
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                                                    • v.isReflexiveEx = v.isReflexive
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                                                      • v.numCtors = v.ctors.length
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                                                          • v.numTypeFormers = v.all.length + v.numNested
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                                                              • Lean.instInhabitedConstructorVal = { default := { toConstantVal := default, induct := default, cidx := default, numParams := default, numFields := default, isUnsafe := default } }
                                                              @[export lean_mk_constructor_val]
                                                              def Lean.mkConstructorValEx (name : Lean.Name) (levelParams : List Lean.Name) (type : Lean.Expr) (induct : Lean.Name) (cidx numParams numFields : Nat) (isUnsafe : Bool) :
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                                                                @[export lean_constructor_val_is_unsafe]
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                                                                • v.isUnsafeEx = v.isUnsafe
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                                                                  Information for reducing a recursor

                                                                  • ctor : Lean.Name

                                                                    Reduction rule for this Constructor

                                                                  • nfields : Nat

                                                                    Number of fields (i.e., without counting inductive datatype parameters)

                                                                  • rhs : Lean.Expr

                                                                    Right hand side of the reduction rule

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                                                                    • List of all inductive datatypes in the mutual declaration that generated this recursor

                                                                    • numParams : Nat

                                                                      Number of parameters

                                                                    • numIndices : Nat

                                                                      Number of indices

                                                                    • numMotives : Nat

                                                                      Number of motives

                                                                    • numMinors : Nat

                                                                      Number of minor premises

                                                                    • A reduction for each Constructor

                                                                    • k : Bool

                                                                      It supports K-like reduction. A recursor is said to support K-like reduction if one can assume it behaves like Eq under axiom K --- that is, it has one constructor, the constructor has 0 arguments, and it is an inductive predicate (ie, it lives in Prop).

                                                                      Examples of inductives with K-like reduction is Eq, Acc, and And.intro. Non-examples are exists (where the constructor has arguments) and Or.intro (which has multiple constructors).

                                                                    • isUnsafe : Bool
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                                                                      @[export lean_mk_recursor_val]
                                                                      def Lean.mkRecursorValEx (name : Lean.Name) (levelParams : List Lean.Name) (type : Lean.Expr) (all : List Lean.Name) (numParams numIndices numMotives numMinors : Nat) (rules : List Lean.RecursorRule) (k isUnsafe : Bool) :
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                                                                        @[export lean_recursor_k]
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                                                                        • v.kEx = v.k
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                                                                          @[export lean_recursor_is_unsafe]
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                                                                          • v.isUnsafeEx = v.isUnsafe
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                                                                            • v.getMajorIdx = v.numParams + v.numMotives + v.numMinors + v.numIndices
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                                                                              • v.getFirstIndexIdx = v.numParams + v.numMotives + v.numMinors
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                                                                                • v.getFirstMinorIdx = v.numParams + v.numMotives
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                                                                                  The inductive type of the major argument of the recursor.

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                                                                                    @[export lean_mk_quot_val]
                                                                                    def Lean.mkQuotValEx (name : Lean.Name) (levelParams : List Lean.Name) (type : Lean.Expr) (kind : Lean.QuotKind) :
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                                                                                    • Lean.mkQuotValEx name levelParams type kind = { name := name, levelParams := levelParams, type := type, kind := kind }
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                                                                                      @[export lean_quot_val_kind]
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                                                                                      • v.kindEx = v.kind
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                                                                                        Information associated with constant declarations.

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                                                                                              • d.name = d.toConstantVal.name
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                                                                                                • d.levelParams = d.toConstantVal.levelParams
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                                                                                                  • d.numLevelParams = d.levelParams.length
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                                                                                                    • d.type = d.toConstantVal.type
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                                                                                                        • (Lean.ConstantInfo.defnInfo { name := name, levelParams := levelParams, type := type, value := r, hints := hints, safety := safety, all := all }).value! = r
                                                                                                        • (Lean.ConstantInfo.thmInfo { name := name, levelParams := levelParams, type := type, value := r, all := all }).value! = r
                                                                                                        • x.value! = panicWithPosWithDecl "Lean.Declaration" "Lean.ConstantInfo.value!" 461 33 "declaration with value expected"
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                                                                                                                  List of all (including this one) declarations in the same mutual block.

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